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Development and validation of an ultra-fast liquid chromatographic method for the quality control of famotidine formulations using a short monolithic stationary phase

100%
Tzanavaras P.
Open Chemistry
|
2011
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vol. 9
|
issue 3
446-452
EN
An HPLC method for the quality control of famotidine (FMT) containing formulations has been developed and validated. The combination of a short monolithic column (Chromolith® RP-18e 50 × 4.6 mm i.d.) and an elevated flow rate (3.0 mL min−1) enabled the proposal of a high-throughput analytical scheme capable of reliable operation in a demanding industrial environment. Detection was carried out at 265 nm. Thorough validation of the method included linearity (5–150%), limits of detection (0.13%) and quantification (0.41%), selectivity, precision (within- and day-to-day), accuracy and ruggedness. The new method was applied successfully to the analysis of samples (assay, dissolution, dosage & blending uniformity) during the production of four validation batches of FMT-containing tablets.
2
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Approaches to imaging unfolded secretory protein stress in living cells

72%
Lajoie P., Fazio E. N., Snapp E. L.
Endoplasmic Reticulum Stress in Diseases
|
2014
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vol. 1
|
issue 1
EN
The endoplasmic reticulum (ER) is the point of entry of proteins into the secretory pathway. Nascent peptides interact with the ER quality control machinery that ensures correct folding of the nascent proteins. Failure to properly fold proteins can lead to loss of protein function and cytotoxic aggregation of misfolded proteins that can lead to cell death. To cope with increases in the ER unfolded secretory protein burden, cells have evolved the Unfolded Protein Response (UPR). The UPR is the primary signaling pathway that monitors the state of the ER folding environment. When the unfolded protein burden overwhelms the capacity of the ER quality control machinery, a state termed ER stress, sensor proteins detect accumulation of misfolded peptides and trigger the UPR transcriptional response. The UPR, which is conserved from yeast to mammals, consists of an ensemble of complex signaling pathways that aims at adapting the ER to the new misfolded protein load. To determine how different factors impact the ER folding environment, various tools and assays have been developed. In this review, we discuss recent advances in live cell imaging reporters and model systems that enable researchers to monitor changes in the unfolded secretory protein burden and activation of the UPR and its associated signaling pathways.
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